;;;ECEVAL.SCM ;;;Ordinary entry to ECEVAL (define (start-eceval) (set! the-global-environment (make-initial-environment)) (eval-loop)) ;;;Return to ECEVAL with the-global-environment intact (define (eval-loop) (fluid-let ((*unparser-list-breadth-limit* 10)) (set-register-contents! eceval 'flags false) (start eceval))) ;;; Arranging for ECEVAL to call compiled code: (define (compile-and-go expression) (let ((instructions (assemble (statements (compile expression 'val 'return)) eceval))) (set-register-contents! eceval 'val instructions) (set-register-contents! eceval 'flags true) (fluid-let ((*unparser-list-breadth-limit* 10)) (start eceval)))) (define (get-global-environment) the-global-environment) (define (initialize-eceval-stack) (eceval 'initialize-stack) (eceval 'initialize-ops-counter)) (define (print-eceval-stack-statistics) ((eceval 'stack) 'print-statistics) (eceval 'print-ops)) (define eceval-operations `((self-evaluating? ,self-evaluating?) (quoted? ,quoted?) (text-of-quotation ,text-of-quotation) (variable? ,variable?) (assignment? ,assignment?) (assignment-variable ,assignment-variable) (assignment-value ,assignment-value) (definition? ,definition?) (definition-variable ,definition-variable) (definition-value ,definition-value) (if? ,if?) (if-predicate ,if-predicate) (if-consequent ,if-consequent) (if-alternative ,if-alternative) (lambda? ,lambda?) (lambda-parameters ,lambda-parameters) (lambda-body ,lambda-body) (make-procedure ,make-procedure) (begin? ,begin?) (begin-actions ,begin-actions) (first-exp ,first-exp) (rest-exps ,rest-exps) (last-exp? ,last-exp?) (application? ,application?) (operator ,operator) (operands ,operands) (first-operand ,first-operand) (rest-operands ,rest-operands) (last-operand? ,last-operand?) (no-operands? ,no-operands?) (no-more-exps? ,no-more-exps?) (adjoin-arg ,adjoin-arg) (empty-arglist ,empty-arglist) (primitive-procedure? ,primitive-procedure?) (compound-procedure? ,compound-procedure?) (apply-primitive-procedure ,apply-primitive-procedure) (procedure-body ,procedure-body) (procedure-parameters ,procedure-parameters) (procedure-environment ,procedure-environment) (extend-environment ,extend-environment) (lookup-variable-value ,lookup-variable-value) (define-variable! ,define-variable!) (set-variable-value! ,set-variable-value!) (false? ,false?) (list ,list) (cons ,cons) (display ,display) (user-print ,user-print) (get-global-environment ,get-global-environment) (prompt-for-command-expression ,prompt-for-command-expression) (initialize-eceval-stack ,initialize-eceval-stack) (print-eceval-stack-statistics ,print-eceval-stack-statistics) (compiled-procedure? ,compiled-procedure?) (compiled-procedure-entry ,compiled-procedure-entry) (compiled-procedure-env ,compiled-procedure-env) (make-compiled-procedure ,make-compiled-procedure) (cond? ,cond?) (cond->if ,cond->if) (let? ,let?) (let->combination ,let->combination) )) (define eceval (make-machine '(exp env val proc argl continue unev) eceval-operations '( start (branch (label external-entry)) ;if flags is set read-eval-print-loop (perform (op initialize-eceval-stack)) (assign exp (op prompt-for-command-expression) (const ";;; EC-Eval input: ")) (assign env (op get-global-environment)) (assign continue (label print-result)) (goto (label eval-dispatch)) print-result (perform (op print-eceval-stack-statistics)) (perform (op display) (const "\n;;; EC-Eval value: ")) (perform (op user-print) (reg val)) (perform (op display) (const "\n")) (goto (label read-eval-print-loop)) unknown-expression-type-error (restore continue) ; clean up stack (from apply-dispatch) (assign val (const 'unknown-expression-type-error)) (goto (label signal-error)) unknown-procedure-type-error (restore continue) ;clean up stack (from apply-dispatch) (assign val (const 'unknown-procedure-type-error)) (goto (label signal-error)) signal-error (perform (op user-print) (reg val)) (goto (label read-eval-print-loop)) external-entry (perform (op initialize-eceval-stack)) (assign env (op get-global-environment)) (assign continue (label print-result)) (goto (reg val)) eval-dispatch (test (op self-evaluating?) (reg exp)) (branch (label ev-self-eval)) (test (op quoted?) (reg exp)) (branch (label ev-quoted)) (test (op variable?) (reg exp)) (branch (label ev-variable)) (test (op assignment?) (reg exp)) (branch (label ev-assignment)) (test (op definition?) (reg exp)) (branch (label ev-definition)) (test (op if?) (reg exp)) (branch (label ev-if)) (test (op lambda?) (reg exp)) (branch (label ev-lambda)) (test (op begin?) (reg exp)) (branch (label ev-begin)) (test (op cond?) (reg exp)) (branch (label ev-cond)) (test (op let?) (reg exp)) (branch (label ev-let)) (test (op application?) (reg exp)) (branch (label ev-application)) (goto (label unknown-expression-type-error)) ev-self-eval (assign val (reg exp)) (goto (reg continue)) ev-quoted (assign val (op text-of-quotation) (reg exp)) (goto (reg continue)) ev-variable (assign val (op lookup-variable-value) (reg exp) (reg env)) (goto (reg continue)) ev-assignment (assign unev (op assignment-variable) (reg exp)) (save unev) (assign exp (op assignment-value) (reg exp)) (save env) (save continue) (assign continue (label ev-assignment-1)) (goto (label eval-dispatch)) ev-assignment-1 (restore continue) (restore env) (restore unev) (assign val (op set-variable-value!) (reg unev) (reg val) (reg env)) (goto (reg continue)) ev-definition (assign unev (op definition-variable) (reg exp)) (save unev) (assign exp (op definition-value) (reg exp)) (save env) (save continue) (assign continue (label ev-definition-1)) (goto (label eval-dispatch)) ev-definition-1 (restore continue) (restore env) (restore unev) (assign val (op define-variable!) (reg unev) (reg val) (reg env)) (goto (reg continue)) ev-if (assign unev (reg exp)) (save unev) ;save expression for later (save env) (save continue) (assign continue (label ev-if-decide)) (assign exp (op if-predicate) (reg unev)) (goto (label eval-dispatch)) ;evaluate the predicate ev-if-decide (restore continue) (restore env) (restore unev) (test (reg val)) (branch (label ev-if-consequent)) ev-if-alternative (assign exp (op if-alternative) (reg unev)) (goto (label eval-dispatch)) ev-if-consequent (assign exp (op if-consequent) (reg unev)) (goto (label eval-dispatch)) ev-lambda (assign unev (op lambda-parameters) (reg exp)) (assign exp (op lambda-body) (reg exp)) (assign val (op make-procedure) (reg unev) (reg exp) (reg env)) (goto (reg continue)) ev-begin (assign unev (op begin-actions) (reg exp)) (save continue) (goto (label ev-sequence)) ev-sequence (assign exp (op first-exp) (reg unev)) (test (op last-exp?) (reg unev)) (branch (label ev-sequence-last-exp)) (save unev) (save env) (assign continue (label ev-sequence-continue)) (goto (label eval-dispatch)) ev-sequence-continue (restore env) (restore unev) (assign unev (op rest-exps) (reg unev)) (goto (label ev-sequence)) ev-sequence-last-exp (restore continue) (goto (label eval-dispatch)) ;; Version that breaks tail recursion ;ev-sequence ; (test (op no-more-exps?) (reg unev)) ; (branch (label ev-sequence-end)) ; (assign exp (op first-exp) (reg unev)) ; (save unev) ; (save env) ; (assign continue (label ev-sequence-continue)) ; (goto (label eval-dispatch)) ;ev-sequence-continue ; (restore env) ; (restore unev) ; (assign unev (op rest-exps) (reg unev)) ; (goto (label ev-sequence)) ;ev-sequence-end ; (restore continue) ; (goto (reg continue)) ev-cond (assign exp (op cond->if) (reg exp)) (goto (label eval-dispatch)) ev-let (assign exp (op let->combination) (reg exp)) (goto (label eval-dispatch)) ev-application (save continue) ;dest for after application (save env) (assign unev (op operands) (reg exp)) (save unev) ;the operands (assign exp (op operator) (reg exp)) (assign continue (label ev-appl-did-operator)) (goto (label eval-dispatch)) ;go to eval the operator ev-appl-did-operator (restore unev) ;the operands (restore env) (assign argl (op empty-arglist)) ;init argl (assign proc (reg val)) ;the operator (test (op no-operands?) (reg unev)) (branch (label apply-dispatch)) (save proc) ev-appl-operand-loop (save argl) (assign exp (op first-operand) (reg unev)) (test (op last-operand?) (reg unev)) (branch (label ev-appl-last-arg)) (save env) (save unev) (assign continue (label ev-appl-accumulate-arg)) (goto (label eval-dispatch)) ev-appl-accumulate-arg (restore unev) (restore env) (restore argl) (assign argl (op adjoin-arg) (reg val) (reg argl)) (assign unev (op rest-operands) (reg unev)) (goto (label ev-appl-operand-loop)) ev-appl-last-arg (assign continue (label ev-appl-accum-last-arg)) (goto (label eval-dispatch)) ev-appl-accum-last-arg (restore argl) (assign argl (op adjoin-arg) (reg val) (reg argl)) (restore proc) (goto (label apply-dispatch)) apply-dispatch ;;expects continuation to be on the stack (test (op primitive-procedure?) (reg proc)) (branch (label primitive-apply)) (test (op compound-procedure?) (reg proc)) (branch (label compound-apply)) (test (op compiled-procedure?) (reg proc)) (branch (label compiled-apply)) (goto (label unknown-procedure-type-error)) primitive-apply (assign val (op apply-primitive-procedure) (reg proc) (reg argl)) (restore continue) (goto (reg continue)) compound-apply (assign unev (op procedure-parameters) (reg proc)) (assign env (op procedure-environment) (reg proc)) (assign env (op extend-environment) (reg unev) (reg argl) (reg env)) (assign unev (op procedure-body) (reg proc)) (goto (label ev-sequence)) compiled-apply (restore continue) ;compiled code body assumes continuation in continue (assign val (op compiled-procedure-entry) (reg proc)) (goto (reg val)) )))